CBC_CONIC-class {CVXR} | R Documentation |
An interface to the CBC solver
Description
An interface to the CBC solver
Usage
CBC_CONIC()
## S4 method for signature 'CBC_CONIC'
mip_capable(solver)
## S4 method for signature 'CBC_CONIC'
status_map(solver, status)
## S4 method for signature 'CBC_CONIC'
status_map_mip(solver, status)
## S4 method for signature 'CBC_CONIC'
status_map_lp(solver, status)
## S4 method for signature 'CBC_CONIC'
name(x)
## S4 method for signature 'CBC_CONIC'
import_solver(solver)
## S4 method for signature 'CBC_CONIC,Problem'
accepts(object, problem)
## S4 method for signature 'CBC_CONIC,Problem'
perform(object, problem)
## S4 method for signature 'CBC_CONIC,list,list'
invert(object, solution, inverse_data)
## S4 method for signature 'CBC_CONIC'
solve_via_data(
object,
data,
warm_start,
verbose,
feastol,
reltol,
abstol,
num_iter,
solver_opts,
solver_cache
)
Arguments
solver , object , x |
A CBC_CONIC object. |
status |
A status code returned by the solver. |
problem |
A Problem object. |
solution |
The raw solution returned by the solver. |
inverse_data |
A list containing data necessary for the inversion. |
data |
Data generated via an apply call. |
warm_start |
A boolean of whether to warm start the solver. |
verbose |
A boolean of whether to enable solver verbosity. |
feastol |
The feasible tolerance. |
reltol |
The relative tolerance. |
abstol |
The absolute tolerance. |
num_iter |
The maximum number of iterations. |
solver_opts |
A list of Solver specific options |
solver_cache |
Cache for the solver. |
Methods (by generic)
-
mip_capable(CBC_CONIC)
: Can the solver handle mixed-integer programs? -
status_map(CBC_CONIC)
: Converts status returned by the CBC solver to its respective CVXPY status. -
status_map_mip(CBC_CONIC)
: Converts status returned by the CBC solver to its respective CVXPY status for mixed integer problems. -
status_map_lp(CBC_CONIC)
: Converts status returned by the CBC solver to its respective CVXPY status for linear problems. -
name(CBC_CONIC)
: Returns the name of the solver -
import_solver(CBC_CONIC)
: Imports the solver -
accepts(object = CBC_CONIC, problem = Problem)
: Can CBC_CONIC solve the problem? -
perform(object = CBC_CONIC, problem = Problem)
: Returns a new problem and data for inverting the new solution. -
invert(object = CBC_CONIC, solution = list, inverse_data = list)
: Returns the solution to the original problem given the inverse_data. -
solve_via_data(CBC_CONIC)
: Solve a problem represented by data returned from apply.